Biochemical and cytological relationships in C4 plants

Abstract

C₄ plants can be divided into three groups based on differences in activities of three decarboxylating enzymes: NADP-malic enzyme, NAD-malic enzyme, and phosphopyruvate carboxykinase. In the Gramineae the three C₄ groups are distinguished by anatomical and ultrastructural characteristics of bundle-sheath chloroplasts. NADP-malic enzyme species lack well-developed grana in bundle-sheath chloroplasts (grana reduced) and the bundle-sheath chloroplasts are in the centrifugal position. NAD-malic enzyme species have bundle-sheath chloroplasts in the centripetal position and contain grana. Phosphopyruvate carboxykinase species have bundle-sheath chloroplasts in the centrifugal position and they contain grana. NADP-malic enzyme species of the Gramineae have only been found in the subfamilies Aristidoideae and Panicoideae. With the exception of the genera Panicum, and Urochloa, NAD-malic enzyme species and phosphopyruvate carboxykinase species have only been found in the subfamily Eragrostoideae. C₄ species of the genus Panicum are found among all three of the C₄ groups. The dicotyledonous C₄ species examined fall into two groups: those having high NADP-malic enzyme and those having high NAD-malic enzyme. No phosphopyruvate carboxykinase C₄ species have been found among the dicotyledons. The NADP-malic enzyme C₄ species of the dicotyledons like NADP-malic enzyme species of the Gramineae have bundle-sheath chloroplasts with reduced grana but in contrast to NADP-malic enzyme species of the Gramineae the bundle-sheath chloroplasts are in the centripetal position. The NAD-malic enzyme species of the dicotyledons like the NAD-malic enzyme species of the Gramineae have bundlesheath chloroplasts in the centripetal position with well developed grana. The results are discussed in terms of evolutionary and functional diversification of C₄ plants.